| Physical and chemical properties |
Trichlorosilane is pungent stench flowable volatile colorless liquid at room temperature and pressure. It is highly flammable in air, it also has the risk of fire at below-18 ℃, when meets open fire, it burns strongly with red flames and white smoke, and SiO2, HCl and Cl2 can generate: SiHCl3 + O2 → SiO2 + HCl + Cl2; the vapor of three chlorosilane and air can form a wide range of concentrations of explosive gas mixture, and it can cause violent explosion when be heated. The thermal stability is better than dichlorosilane, it can decompose into toxic fumes chloride (HCl), Cl2 and Si at 900℃. When meets moisture, it can generate smoke, it can react violently with water: 2SiHCl3 + 3H2O → (HSiO) 2O + 6HCl; It can decompose in lye and release hydrogen: SiHCl3 + 3NaOH + H2O → Si (OH) 4 + 3NaCl + H2; and when it contacts oxidative substances, explosive reaction can occur. The reaction with acetylene, hydrocarbons and other organic hydrocarbons can produce chlorosilane: SiHCl3 + CH≡CH → CH2CHSiCl3, SiHCl3 + CH2 = CH2 → CH3CH2SiCl3; In the presence of lithium aluminum hydride, lithium borohydride, SiHCl3 can be reduced to silane. When the container is subjected to strong shock, liquid SiHCl3 will fire. It is soluble in benzene, ether etc.. Anhydrous trichlorosilane can not corrode iron and stainless steel, but in the presence of moisture, it can corrode most metals. |
| Trichlorosilane |
Trichlorosilane is also known as trichlorosilane, silicon chloroform, it can be used the raw material of polymer organic silicon compound.
Trichlorosilane is not only the important intermediate of manufacturing silane coupling agent, and other organic silicon products, but also the major raw material to manufacture polysilicon. Silane coupling agent is an important, high-tech, high value-added silicone composite material, the non-crosslinked resin can crosslink or modify by silane coupling agent, so it is increasingly and widely used in glass fiber, foundry, tires rubber and other industries. Silicon tetrachloride which is the major byproduct in the production of trichlorosilane is also the main raw material of silicone, the manufactures contain silicon ester, silicone oil, high temperature insulation paint, silicone resin, silicone rubber and heat-resistant padded material . High-purity silicon tetrachloride or high-purity silica is important raw material in manufacturing of inorganic silicon compounds, quartz fibers and optical fiber.
The main purpose of the polysilicon product:
1. It can be made into solar cell, the radiant energy can be turned into electrical energy; 2. high purity crystalline silicon is an important semiconductor material; 3. it is important material in cermet, Astronautical; 4. it can be used in optical fiber communication which is recent modern communication means; 5. it can be used in excellent properties of the organosilicon compounds.
The above information is edited by the chemicalbook of Wang Xiaodong. |
| Toxicity |
After several minutes of inhaling trichlorosilane vapor, people show excitement, breathing reflex disorders, respiratory inflammation. When spills on the skin, it can cause necrosis, long-term healing of ulcers. Maximum allowable concentration is 1 mg/m3 (must test HCl). Production staff should wear closed-type overalls, protective masks, sealed glasses, latex gloves and other protective clothing to prevent direct contact with the respiratory organs, eyes and skin. Production equipment must be sealed, workshop should be ventilated. After work, people should take a shower, and aobserve personal hygiene. Production workers should have pre-employment and periodic medical examinations. |
| Chemical properties |
It is colorless liquid. It is soluble in carbon disulfide, carbon tetrachloride, chloroform, benzene etc. |
| Uses |
It can be used the raw material for polymer organic silicon compound, it can also be used in industrial instrumentation.
It can be used the raw material for producing organic silicon compound, it is also the basic raw material of production polysilicon. |
| Production method |
The method of boiling chlorination
Silicon powder after dried is added into boiling chloride furnace, and reacts with dry hydrogen chloride gas which passes into the furnace of at 340 ℃. The generated crude trichlorosilane goes through the wet dust collector, condenser tube and comes into distillation column to separate silicon tetrachloride, trichlorosilane gas from the distillation column is condensed to obtain finished trichlorosilane.
Si + 3HCl → SiHCl3 + H2 |
| Category |
Flammable liquid. |
| Toxicity grading |
Mid toxicity. |
| Acute oral toxicity |
rat LD50: 1030 mg/kg; Inhalation-Mouse LC50: 1500 mg/m/2 hours. |
| Flammability hazard characteristics |
It is flammable in case of fire, high temperature, oxidant; it can generate toxic fumes of chlorides and fluorides in case of water or high temperature. |
| Storage characteristics |
Treasury should be ventilated and low-temperature dried; it should be stored separately with oxidants, acids. |
| Extinguishing agent |
Dry powder, dry sand, carbon dioxide, foam. |
| Chemical Properties |
Clear liquid with acrid odor of hydrogen chloride |
| Uses |
In organic synthesis. |
| General Description |
A colorless fuming liquid with a pungent odor. Flash point 7°F. Vapor and liquid cause burns. More dense than water. Vapors are heavier than air. |
| Air & Water Reactions |
Highly flammable. Ignites spontaneously in air [NFPA, 1991]. Reacts violently with water, steam, moisture in air to generate heat and flammable (H2) and corrosive (HCl) gases. [Handling Chemicals Safely 1980. p. 924]. |
| Reactivity Profile |
Trichlorosilane reacts with alcohols, acetone, light metals with generation of heat and combustible (H2) and corrosive (HCl) gases [Handling Chemicals Safely 1980. p. 924]. |
| Health Hazard |
Inhalation causes severe irritation of respiratory system. Liquid causes severe burns of eyes and skin. Ingestion causes severe burns of mouth and stomach. |
| Toxicity |
LD50 orally in rats: 1.03 g/kg (Smyth) |
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